Van Ommen R, Vredendaal A E, Savelkoul H F
Department of Immunology, Erasmus University, Rotterdam, The Netherlands.
Scand J Immunol. 1994 Nov;40(5):491-501. doi: 10.1111/j.1365-3083.1994.tb03495.x.
We have recently developed a model in which mice were treated with IL-4 after primary immunization, resulting in elevated total serum IgG1 and IgE levels, but decreased antigen-specific levels and memory formation for these isotypes. In this report, we describe that these effects of IL-4 are mediated at the B cell and not the T-cell level. Major changes occurred in the gamma 1 epsilon-double positive B-cell population which is increased as a result of IL-4 treatment. Moreover, it is shown that gamma 1 epsilon-double positive B cells can develop in vitro out of gamma 1-positive primed B cells and that these double positive cells can differentiate into IgG1- and IgE-secreting cells. The existence of gamma 1 epsilon-double positive memory B cells can explain the differences in cytokine dependence of TNP-specific memory IgG1 and IgE responses found after adoptively transferring primed spleen cells into irradiated naive recipients. Whereas the IL-4 independent TNP-specific memory IgG1 responses could be blocked efficiently by neutralizing IL-5 and IL-6, TNP-specific memory IgE responses were virtually not susceptible to such treatment. These IgE responses were also not susceptible to IFN-gamma, used in doses that could inhibit the primary IgE response. Inhibition of the TNP-specific memory IgG1 response by neutralizing IL-5 and IL-6 is accompanied by a 10-fold increase of the IL-4 independent TNP-specific IgE memory response. These data indicate that secondary IgE responses primarily result from B cells that are either switched to IgG1, or are double positive for IgG1 and IgE, thereby suggesting a minor role for epsilon-single positive B cells in secondary IgE responses.
我们最近建立了一个模型,在该模型中,小鼠在初次免疫后接受白细胞介素-4(IL-4)处理,导致血清总IgG1和IgE水平升高,但这些同种型的抗原特异性水平和记忆形成降低。在本报告中,我们描述了IL-4的这些作用是在B细胞而非T细胞水平介导的。γ1ε双阳性B细胞群体发生了重大变化,由于IL-4处理,该群体增加。此外,研究表明,γ1ε双阳性B细胞可在体外由γ1阳性的致敏B细胞发育而来,并且这些双阳性细胞可分化为分泌IgG1和IgE的细胞。γ1ε双阳性记忆B细胞的存在可以解释在将致敏脾细胞过继转移到受辐射的未致敏受体后,发现的TNP特异性记忆IgG1和IgE反应在细胞因子依赖性方面的差异。虽然通过中和IL-5和IL-6可以有效阻断不依赖IL-4的TNP特异性记忆IgG1反应,但TNP特异性记忆IgE反应实际上对这种处理不敏感。这些IgE反应也对用于抑制初次IgE反应的剂量的干扰素-γ(IFN-γ)不敏感。通过中和IL-5和IL-6抑制TNP特异性记忆IgG1反应伴随着不依赖IL-4的TNP特异性IgE记忆反应增加10倍。这些数据表明,继发性IgE反应主要源于已转换为IgG1或对IgG1和IgE呈双阳性的B细胞,从而表明ε单阳性B细胞在继发性IgE反应中起次要作用。
